Mercurial > hg > octave-max
view liboctave/floatCHOL.cc @ 14928:460a3c6d8bf1
maint: Use Octave coding convention for cuddled parenthis in function calls with empty argument lists.
Example: func() => func ()
* dynamic.txi, func.txi, oop.txi, var.txi, embedded.cc, fortdemo.cc,
funcdemo.cc, paramdemo.cc, stringdemo.cc, unwinddemo.cc, Array.cc, Array.h,
CColVector.cc, CDiagMatrix.h, CMatrix.cc, CNDArray.cc, CRowVector.cc,
CSparse.cc, CmplxGEPBAL.cc, EIG.cc, MSparse.cc, MatrixType.cc,
Sparse-op-defs.h, Sparse-perm-op-defs.h, Sparse.cc, Sparse.h,
SparseCmplxCHOL.cc, SparseCmplxCHOL.h, SparseCmplxLU.cc, SparseCmplxQR.cc,
SparseCmplxQR.h, SparseQR.cc, SparseQR.h, SparsedbleCHOL.cc, SparsedbleCHOL.h,
SparsedbleLU.cc, SparsedbleLU.h, base-lu.cc, cmd-hist.cc, dColVector.cc,
dDiagMatrix.h, dMatrix.cc, dNDArray.cc, dRowVector.cc, dSparse.cc, dbleCHOL.cc,
dbleGEPBAL.cc, dim-vector.cc, eigs-base.cc, f2c-main.c, fCColVector.cc,
fCDiagMatrix.h, fCMatrix.cc, fCNDArray.cc, fCRowVector.cc, fCmplxGEPBAL.cc,
fColVector.cc, fDiagMatrix.h, fEIG.cc, fMatrix.cc, fNDArray.cc, fRowVector.cc,
file-ops.cc, file-stat.cc, floatCHOL.cc, floatGEPBAL.cc, idx-vector.h,
lo-specfun.cc, lo-sysdep.cc, mx-inlines.cc, oct-binmap.h, oct-convn.cc,
oct-md5.cc, oct-mem.h, oct-rand.cc, oct-syscalls.cc, randgamma.c, randmtzig.c,
sparse-base-chol.cc, sparse-base-chol.h, sparse-base-lu.cc, sparse-dmsolve.cc,
tempname.c, curl.m, divergence.m, randi.m, dlmwrite.m, edit.m, getappdata.m,
what.m, getarchdir.m, install.m, installed_packages.m, repackage.m,
unload_packages.m, colorbar.m, figure.m, isosurface.m, legend.m, loglog.m,
plot.m, plot3.m, plotyy.m, polar.m, __errplot__.m, __ghostscript__.m,
__marching_cube__.m, __plt__.m, __scatter__.m, semilogx.m, semilogy.m,
trimesh.m, trisurf.m, demo.m, test.m, datetick.m, __delaunayn__.cc,
__dsearchn__.cc, __fltk_uigetfile__.cc, __glpk__.cc, __init_fltk__.cc,
__lin_interpn__.cc, __magick_read__.cc, __pchip_deriv__.cc, balance.cc,
bsxfun.cc, ccolamd.cc, cellfun.cc, chol.cc, daspk.cc, dasrt.cc, dassl.cc,
dmperm.cc, eig.cc, eigs.cc, fftw.cc, filter.cc, find.cc, kron.cc, lookup.cc,
lsode.cc, matrix_type.cc, md5sum.cc, mgorth.cc, qr.cc, quad.cc, rand.cc,
regexp.cc, symbfact.cc, tril.cc, urlwrite.cc, op-bm-bm.cc, op-cdm-cdm.cc,
op-cell.cc, op-chm.cc, op-cm-cm.cc, op-cm-scm.cc, op-cm-sm.cc, op-cs-scm.cc,
op-cs-sm.cc, op-dm-dm.cc, op-dm-scm.cc, op-dm-sm.cc, op-fcdm-fcdm.cc,
op-fcm-fcm.cc, op-fdm-fdm.cc, op-fm-fm.cc, op-int.h, op-m-m.cc, op-m-scm.cc,
op-m-sm.cc, op-pm-pm.cc, op-pm-scm.cc, op-pm-sm.cc, op-range.cc, op-s-scm.cc,
op-s-sm.cc, op-sbm-sbm.cc, op-scm-cm.cc, op-scm-cs.cc, op-scm-m.cc,
op-scm-s.cc, op-scm-scm.cc, op-scm-sm.cc, op-sm-cm.cc, op-sm-cs.cc, op-sm-m.cc,
op-sm-s.cc, op-sm-scm.cc, op-sm-sm.cc, op-str-str.cc, op-struct.cc, bitfcns.cc,
data.cc, debug.cc, dynamic-ld.cc, error.cc, gl-render.cc, graphics.cc,
graphics.in.h, load-path.cc, ls-hdf5.cc, ls-mat5.cc, ls-mat5.h,
ls-oct-ascii.cc, ls-oct-ascii.h, mex.cc, mk-errno-list, oct-map.cc, oct-obj.h,
oct-parse.yy, octave-config.in.cc, ov-base-int.cc, ov-base-mat.cc, ov-base.cc,
ov-bool-mat.cc, ov-bool-sparse.cc, ov-bool.cc, ov-cell.cc, ov-class.cc,
ov-class.h, ov-cx-mat.cc, ov-cx-sparse.cc, ov-fcn-handle.cc, ov-flt-cx-mat.cc,
ov-flt-re-mat.cc, ov-intx.h, ov-range.h, ov-re-mat.cc, ov-re-sparse.cc,
ov-str-mat.cc, ov-struct.cc, ov-usr-fcn.h, ov.h, pr-output.cc, pt-id.cc,
pt-id.h, pt-mat.cc, pt-select.cc, sparse.cc, symtab.cc, symtab.h, syscalls.cc,
toplev.cc, txt-eng-ft.cc, variables.cc, zfstream.cc, zfstream.h, Dork.m,
getStash.m, myStash.m, Gork.m, Pork.m, myStash.m, getStash.m, myStash.m,
getStash.m, myStash.m, fntests.m: Use Octave coding convention for
cuddled parenthis in function calls with empty argument lists.
| author | Rik <octave@nomad.inbox5.com> |
|---|---|
| date | Sun, 08 Jul 2012 11:28:50 -0700 |
| parents | 72c96de7a403 |
| children |
line wrap: on
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/* Copyright (C) 1994-2012 John W. Eaton Copyright (C) 2008-2009 Jaroslav Hajek This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <vector> #include "fRowVector.h" #include "floatCHOL.h" #include "f77-fcn.h" #include "lo-error.h" #include "oct-locbuf.h" #include "oct-norm.h" #ifndef HAVE_QRUPDATE #include "dbleQR.h" #endif extern "C" { F77_RET_T F77_FUNC (spotrf, SPOTRF) (F77_CONST_CHAR_ARG_DECL, const octave_idx_type&, float*, const octave_idx_type&, octave_idx_type& F77_CHAR_ARG_LEN_DECL); F77_RET_T F77_FUNC (spotri, SPOTRI) (F77_CONST_CHAR_ARG_DECL, const octave_idx_type&, float*, const octave_idx_type&, octave_idx_type& F77_CHAR_ARG_LEN_DECL); F77_RET_T F77_FUNC (spocon, SPOCON) (F77_CONST_CHAR_ARG_DECL, const octave_idx_type&, float*, const octave_idx_type&, const float&, float&, float*, octave_idx_type*, octave_idx_type& F77_CHAR_ARG_LEN_DECL); #ifdef HAVE_QRUPDATE F77_RET_T F77_FUNC (sch1up, SCH1UP) (const octave_idx_type&, float*, const octave_idx_type&, float*, float*); F77_RET_T F77_FUNC (sch1dn, SCH1DN) (const octave_idx_type&, float*, const octave_idx_type&, float*, float*, octave_idx_type&); F77_RET_T F77_FUNC (schinx, SCHINX) (const octave_idx_type&, float*, const octave_idx_type&, const octave_idx_type&, float*, float*, octave_idx_type&); F77_RET_T F77_FUNC (schdex, SCHDEX) (const octave_idx_type&, float*, const octave_idx_type&, const octave_idx_type&, float*); F77_RET_T F77_FUNC (schshx, SCHSHX) (const octave_idx_type&, float*, const octave_idx_type&, const octave_idx_type&, const octave_idx_type&, float*); #endif } octave_idx_type FloatCHOL::init (const FloatMatrix& a, bool calc_cond) { octave_idx_type a_nr = a.rows (); octave_idx_type a_nc = a.cols (); if (a_nr != a_nc) { (*current_liboctave_error_handler) ("FloatCHOL requires square matrix"); return -1; } octave_idx_type n = a_nc; octave_idx_type info; chol_mat.clear (n, n); for (octave_idx_type j = 0; j < n; j++) { for (octave_idx_type i = 0; i <= j; i++) chol_mat.xelem (i, j) = a(i, j); for (octave_idx_type i = j+1; i < n; i++) chol_mat.xelem (i, j) = 0.0f; } float *h = chol_mat.fortran_vec (); // Calculate the norm of the matrix, for later use. float anorm = 0; if (calc_cond) anorm = xnorm (a, 1); F77_XFCN (spotrf, SPOTRF, (F77_CONST_CHAR_ARG2 ("U", 1), n, h, n, info F77_CHAR_ARG_LEN (1))); xrcond = 0.0; if (info > 0) chol_mat.resize (info - 1, info - 1); else if (calc_cond) { octave_idx_type spocon_info = 0; // Now calculate the condition number for non-singular matrix. Array<float> z (dim_vector (3*n, 1)); float *pz = z.fortran_vec (); Array<octave_idx_type> iz (dim_vector (n, 1)); octave_idx_type *piz = iz.fortran_vec (); F77_XFCN (spocon, SPOCON, (F77_CONST_CHAR_ARG2 ("U", 1), n, h, n, anorm, xrcond, pz, piz, spocon_info F77_CHAR_ARG_LEN (1))); if (spocon_info != 0) info = -1; } return info; } static FloatMatrix chol2inv_internal (const FloatMatrix& r) { FloatMatrix retval; octave_idx_type r_nr = r.rows (); octave_idx_type r_nc = r.cols (); if (r_nr == r_nc) { octave_idx_type n = r_nc; octave_idx_type info = 0; FloatMatrix tmp = r; float *v = tmp.fortran_vec (); if (info == 0) { F77_XFCN (spotri, SPOTRI, (F77_CONST_CHAR_ARG2 ("U", 1), n, v, n, info F77_CHAR_ARG_LEN (1))); // If someone thinks of a more graceful way of doing this (or // faster for that matter :-)), please let me know! if (n > 1) for (octave_idx_type j = 0; j < r_nc; j++) for (octave_idx_type i = j+1; i < r_nr; i++) tmp.xelem (i, j) = tmp.xelem (j, i); retval = tmp; } } else (*current_liboctave_error_handler) ("chol2inv requires square matrix"); return retval; } // Compute the inverse of a matrix using the Cholesky factorization. FloatMatrix FloatCHOL::inverse (void) const { return chol2inv_internal (chol_mat); } void FloatCHOL::set (const FloatMatrix& R) { if (R.is_square ()) chol_mat = R; else (*current_liboctave_error_handler) ("FloatCHOL requires square matrix"); } #ifdef HAVE_QRUPDATE void FloatCHOL::update (const FloatColumnVector& u) { octave_idx_type n = chol_mat.rows (); if (u.length () == n) { FloatColumnVector utmp = u; OCTAVE_LOCAL_BUFFER (float, w, n); F77_XFCN (sch1up, SCH1UP, (n, chol_mat.fortran_vec (), chol_mat.rows (), utmp.fortran_vec (), w)); } else (*current_liboctave_error_handler) ("cholupdate: dimension mismatch"); } octave_idx_type FloatCHOL::downdate (const FloatColumnVector& u) { octave_idx_type info = -1; octave_idx_type n = chol_mat.rows (); if (u.length () == n) { FloatColumnVector utmp = u; OCTAVE_LOCAL_BUFFER (float, w, n); F77_XFCN (sch1dn, SCH1DN, (n, chol_mat.fortran_vec (), chol_mat.rows (), utmp.fortran_vec (), w, info)); } else (*current_liboctave_error_handler) ("cholupdate: dimension mismatch"); return info; } octave_idx_type FloatCHOL::insert_sym (const FloatColumnVector& u, octave_idx_type j) { octave_idx_type info = -1; octave_idx_type n = chol_mat.rows (); if (u.length () != n + 1) (*current_liboctave_error_handler) ("cholinsert: dimension mismatch"); else if (j < 0 || j > n) (*current_liboctave_error_handler) ("cholinsert: index out of range"); else { FloatColumnVector utmp = u; OCTAVE_LOCAL_BUFFER (float, w, n); chol_mat.resize (n+1, n+1); F77_XFCN (schinx, SCHINX, (n, chol_mat.fortran_vec (), chol_mat.rows (), j + 1, utmp.fortran_vec (), w, info)); } return info; } void FloatCHOL::delete_sym (octave_idx_type j) { octave_idx_type n = chol_mat.rows (); if (j < 0 || j > n-1) (*current_liboctave_error_handler) ("choldelete: index out of range"); else { OCTAVE_LOCAL_BUFFER (float, w, n); F77_XFCN (schdex, SCHDEX, (n, chol_mat.fortran_vec (), chol_mat.rows (), j + 1, w)); chol_mat.resize (n-1, n-1); } } void FloatCHOL::shift_sym (octave_idx_type i, octave_idx_type j) { octave_idx_type n = chol_mat.rows (); if (i < 0 || i > n-1 || j < 0 || j > n-1) (*current_liboctave_error_handler) ("cholshift: index out of range"); else { OCTAVE_LOCAL_BUFFER (float, w, 2*n); F77_XFCN (schshx, SCHSHX, (n, chol_mat.fortran_vec (), chol_mat.rows (), i + 1, j + 1, w)); } } #else void FloatCHOL::update (const FloatColumnVector& u) { warn_qrupdate_once (); octave_idx_type n = chol_mat.rows (); if (u.length () == n) { init (chol_mat.transpose () * chol_mat + FloatMatrix (u) * FloatMatrix (u).transpose (), false); } else (*current_liboctave_error_handler) ("cholupdate: dimension mismatch"); } static bool singular (const FloatMatrix& a) { for (octave_idx_type i = 0; i < a.rows (); i++) if (a(i,i) == 0.0f) return true; return false; } octave_idx_type FloatCHOL::downdate (const FloatColumnVector& u) { warn_qrupdate_once (); octave_idx_type info = -1; octave_idx_type n = chol_mat.rows (); if (u.length () == n) { if (singular (chol_mat)) info = 2; else { info = init (chol_mat.transpose () * chol_mat - FloatMatrix (u) * FloatMatrix (u).transpose (), false); if (info) info = 1; } } else (*current_liboctave_error_handler) ("cholupdate: dimension mismatch"); return info; } octave_idx_type FloatCHOL::insert_sym (const FloatColumnVector& u, octave_idx_type j) { warn_qrupdate_once (); octave_idx_type info = -1; octave_idx_type n = chol_mat.rows (); if (u.length () != n + 1) (*current_liboctave_error_handler) ("cholinsert: dimension mismatch"); else if (j < 0 || j > n) (*current_liboctave_error_handler) ("cholinsert: index out of range"); else { if (singular (chol_mat)) info = 2; else { FloatMatrix a = chol_mat.transpose () * chol_mat; FloatMatrix a1 (n+1, n+1); for (octave_idx_type k = 0; k < n+1; k++) for (octave_idx_type l = 0; l < n+1; l++) { if (l == j) a1(k, l) = u(k); else if (k == j) a1(k, l) = u(l); else a1(k, l) = a(k < j ? k : k-1, l < j ? l : l-1); } info = init (a1, false); if (info) info = 1; } } return info; } void FloatCHOL::delete_sym (octave_idx_type j) { warn_qrupdate_once (); octave_idx_type n = chol_mat.rows (); if (j < 0 || j > n-1) (*current_liboctave_error_handler) ("choldelete: index out of range"); else { FloatMatrix a = chol_mat.transpose () * chol_mat; a.delete_elements (1, idx_vector (j)); a.delete_elements (0, idx_vector (j)); init (a, false); } } void FloatCHOL::shift_sym (octave_idx_type i, octave_idx_type j) { warn_qrupdate_once (); octave_idx_type n = chol_mat.rows (); if (i < 0 || i > n-1 || j < 0 || j > n-1) (*current_liboctave_error_handler) ("cholshift: index out of range"); else { FloatMatrix a = chol_mat.transpose () * chol_mat; Array<octave_idx_type> p (dim_vector (n, 1)); for (octave_idx_type k = 0; k < n; k++) p(k) = k; if (i < j) { for (octave_idx_type k = i; k < j; k++) p(k) = k+1; p(j) = i; } else if (j < i) { p(j) = i; for (octave_idx_type k = j+1; k < i+1; k++) p(k) = k-1; } init (a.index (idx_vector (p), idx_vector (p)), false); } } #endif FloatMatrix chol2inv (const FloatMatrix& r) { return chol2inv_internal (r); }